DE102008009507B4 - Method and device for surface treatment of extremely hard materials - Google Patents

Abstract

The aim is to provide a method and a device for surface treatment of an extremely hard material, in particular for grinding polycrystalline diamonds (PCD), which enables a significantly faster removal with uniform removal. This is achieved by a process for surface treatment of extremely hard materials, in particular polycrystalline diamonds using a diamond or CBN powder, through which the surface of a workpiece by a combinatorial use of a rotating grinding wheel with the diamond or CBN supplied to the grinding wheel. Powder under a pressure of at least 250 g / cmbis 5000 g / cm and sanded at a cutting speed of 2 m / sec to 15 m / sec and removed.

Description

The The invention relates to a method and a device for surface treatment extremely hard materials, especially for grinding polycrystalline Diamonds (PCD).

polycrystalline Diamond (PCD) is an extremely hard material that is manufactured synthetically from an intergrown mass of diamond particles in a metal matrix exists. The use of this material is due to its extreme hardness in the field of cutting and machining for a variety of materials, as well as trimming of drill heads. Further from the method according to the invention workable materials are for example monocrystalline diamond (MKD) CVD diamond and CVD diamond diamonds and polycrystalline bornidite (PKB).

The Diamond machining, such as grinding PCDs, is done because of its hardness also with diamond in the form of diamond powder containing emulsions. It This is a very time consuming process a big one Amount of diamond abrasive must be used.

The prior art knows a variety of highly divergent solutions to this technical challenge. So revealed the DE 100 39 724 C2 a method for smoothing a synthetically produced diamond layer, in which the diamond is exposed to a relative movement of a smoothing agent. For this purpose, a heated to a temperature between 600 and 900 ° C copper oxide is proposed. It is therefore a thermochemical smoothing, which acts by means of oxidation of the diamond layer. The primary goal here is to speed up the process.

adversely However, this is the immense energy requirement of this process, which still does not allow really fast smoothing.

The DE 695 08 679 T2 relates to a method for producing a diamond wafer and a device for polishing the diamond surface, which mechanically uses diamond powder as an abrasive, which under its own abrasion polishes the wafer. However, it is acknowledged that it takes hundreds of hours to achieve the desired smooth surface. The document discloses only constructive features that should ensure a complete and uniform processing.

Furthermore, it is known from the prior art to use diamond grinding devices are embedded in the diamond abrasives for grinding and polishing in different binders. Such diamond wheels may include, but are not limited to, a metallic or a ceramic bond of diamond abrasives, such as disclosed in U.S. Pat US 4,142,869 ,

in this connection is problematic that the quality and speed of the grinding or polishing process depends on a variety of parameters, the a complex operation with high basic costs and fluctuating Result cause. The diamond abrasives are subject to wear as well as the binder, which must not be electrolyzed.

is the surface to be processed a diamond surface, so there is a much higher diamond content on its surface than in the grinding device, for example a diamond grinding wheel, causing a quick weakening the grinding effect and thus low speeds leads. It For example, it is known PCDs on grinding or polishing machines with a casting disc with coarse diamond grain to be processed, with a running time of 10-15 hours, to achieve a removal of 0.8 mm.

task In the present invention, in view of this, it is a method and a device for surface treatment of an extreme hard material, in particular for grinding polycrystalline Diamonds (PKD), which create a much faster Removal with uniform removal allows.

Reached This is achieved by a new process with the features of the claim 1. The dependent claims 2 to 10 describe advantageous embodiments of the method according to Claim 1.

Reached this is also achieved by a device for the application of the method according to claim 1 according to claim 11, wherein the dependent claims 12 to 14 relate to advantageous types of this device.

The inventive method consists of a combination of loops with bound grain and lapping with loose grain in a defined speed range and with one defined pressure range of the workpiece or workpieces.

For this purpose, diamond or CBN powder during the machining on the grinding wheel abandoned, this Operation be performed manually or by a technical solution automated can.

This method uses the bound slide mantscheibe as a carrier for the loose grain of the diamond powder. It is explicitly not worked here with a diamond grain in emulsion. The loose diamond grain causes on the one hand the grinding wheel is constantly trained and thus does not dull, on the other hand, the loose diamond grain additionally cuts and accelerates the grinding process. The removal is achieved in about 80% by loose diamond grain and 20% by the bonded diamond grain in the grinding wheel.

Essential for the improved abrasion is the interaction of the porosity of the disc surface with the diamond grain in the diamond powder. The depending on the used binding, For example, ceramic or metallic, varying porosity of the grinding wheel serves to hold the diamtpulvers on the disc, thus increasing the Friction and the removal of the workpiece. There is thus a dependency between the grain size of the used Diamond powder and porosity, to consider when choosing the components to be combined is.

at Lack of diamond powder addition will indicate the efficiency Grinding noise after 5 minutes much quieter because of the workpiece, for example the polycrystalline diamond, the abrasive grain is dulled and thus no significant removal can take place. Thus, one is continuous or regular cyclical Addition of loose diamond powder required to be consistent to achieve high efficiency.

The change the sounds The grinding process can be used to control the addition of diamond powder be used on the grinding wheel by AE sensors. Another potential The control parameter is the power consumption of the drive of the grinding wheel.

One Another important technical aspect is the increase of Standard speed to a cutting speed of 2 to 15 m / sec. This increase the cutting speed causes a significant improvement in the Grinding speed, which is not arbitrary by increasing the speed can be increased. Rather, the ideal cutting speed is moving in the range of about 5 m / sec.

The fundamental Speed increase leads to a doubling of the deduction. As a supplement, this should only Pure water can be used, otherwise the grip of the grinding wheel is lost and the pores are saturated with lubricant.

It is basically to take into account that beside the exemplified grinding wheels, or said grain, others Variants also possible could be, to achieve advantageous ablation values, based on the teaching of Invention based.

The Apparatus for using the method has as features a diamond grinding wheel, which rotates at up to 15 m / sec so as to achieve the acceleration of the erosion. A particularly advantageous Cutting speed is about 5 m / sec.

Furthermore the device has a workpiece holder for receiving a plurality to be machined workpieces and a feeding device for discharging the diamond powder, because this yes about the added throughout the grinding process must become.

A advantageous design provides a supply device for the diamond powder before that works cyclically in a pacing of one task every 3 Minutes. The cyclic task has proved to be advantageous across from exposed to a continuously continuous feed stream.

A Diamond grinding wheel with a diamond grit between D46 and D1001 has also proved to be appropriate there this grain shown a good interaction with the loose grain of the diamond powder Has.

Furthermore is an advantage, a supply device for automated feed of water on the diamond grinding wheel provided. The addition of water causes mobilization and Activation of loose grain of diamond powder under simultaneous Prevention of clogging of the pores in the grinding wheel. So can an undesirable saturation the grinding wheel can be avoided.

Finally is it is expedient, a defined pressure of the workpieces on the grinding wheel by a hydraulic or pneumatic Pressure device over the workpiece holder applied. So the pressure can be adjusted exactly to a optimal removal efficiency depending on of the workpiece to be machined and to reach the further grinding parameter.

Claims (17)

Process for the surface treatment of extremely hard materials, in particular of polycrystalline diamonds, using a diamond or CBN powder, characterized in that - the surface of a workpiece by a combinatorial use of a rotating grinding wheel with the grinding wheel supplied slide mant or CBN powder - under a pressure of at least 250 g / cm ² to 5000 g / cm ² - and ground at a cutting speed of 2 m / sec to 15 m / sec and removed. Process for surface treatment of extreme Hard materials according to claim 1, characterized in that as a grinding wheel a ceramic or metallic bonded diamond grinding wheel is used. Process for surface treatment of extreme Hard materials according to claim 1, characterized in that as a grinding wheel a ceramic bonded diamond grinding wheel with a diamond grain in the range of D46 to D1001 is used. Process for surface treatment of extreme Hard materials according to claim 1, characterized in that As a grinding wheel, a CBN grinding wheel is used. Process for surface treatment of extreme Hard materials according to one of claims 1 to 4, characterized that the diamond or CBN powder is monocrystalline or polycrystalline is, in a grain size range from 0-252 microns and regular, regulated or continuously supplied. Process for surface treatment of extreme Hard materials according to one of claims 1 to 5, characterized that the diamond powder is supplied in a dosage of 1 g / min. Process for surface treatment of extreme Hard materials according to one of claims 1 to 6, characterized that the diamond powder is supplied cyclically in a cycle of 3 minutes. Process for surface treatment of extreme Hard materials according to one of claims 1 to 5, characterized that the power consumption of the grinding wheel for controlling the supply of the Diamond powder detected and fed to a control control. Process for surface treatment of extreme Hard materials according to one of claims 1 to 5, characterized that the grinding sounds to control the feeder of diamond powder detected by acoustic emission sensors and fed to a control control become. Process for the surface treatment of extremely hard materials according to one of claims 1 to 9, characterized in that the pressure of the workpiece on the grinding wheel is about 2,200 g / cm ² . Process for surface treatment of extreme Hard materials according to one of claims 1 to 10, characterized that during the Grinding process the grinding wheel to mobilize the supplied diamond powder is sprayed cyclically or continuously with water. Device for surface treatment of extreme hard materials according to the method of claim 1, marked by - one Grinding wheel with a cutting speed of about 2 m / sec up to 15 m / sec and a diameter of at least 100 mm, - one Workpiece holder with recordings for several simultaneously machinable workpieces, A feeding device for feeding a Diamond powder on the grinding wheel, as well - one Pressure applying device. Device for surface treatment of extreme Hard materials according to claim 12, characterized in that the grinding wheel with a cutting speed of 5 m / sec is driven. Device for surface treatment of extreme Hard materials according to claim 12, characterized in that The grinding wheel is a diamond grinding wheel and a diamond grain in the Range from D46 to D1001. Device for surface treatment of extreme Hard materials according to claim 12 or 13, characterized that the feeding device to the feeder of diamond powder works cyclically in a cycle of 3 minutes. Device for surface treatment of extreme Hard materials according to one of claims 12 to 14, characterized that of a feeder for automated delivery of water is provided on the diamond grinding wheel. Device for surface treatment of extreme Hard materials according to one of claims 12 to 15, characterized that the pressure by a hydraulic or pneumatic device on the workpiece holder is effected.